All these sites. On the same day, Vorapaxar biological activity reports indicate that tens of thousands of Rwandans participated in a series of protests over the arrest in Germany of Rose Kabuye, a prominent Rwandan military and political figure, on alleged involvement in the plane crash that led to the 1994 genocide. The distance between the reported location of the protests (latitude -1.96, longitude 30.04) and the centroid of the closest site with unusual call volume and movement frequency is 1.8 km. Again, we find decreased call and mobility frequency, suggesting disruption in daily routines. In this case however, unlike the previous two cases, the behavioral anomalies occur on the same day as the event. Floods–September 19, 2007 (Fig. M in S1 Supporting Information). Our system identified 53 sites that had unusually low call volume and movement frequency on September 19, 2007. During the previous week, starting on September 12, torrential rains in the northwest of thePLOS ONE | DOI:10.1371/journal.pone.0120449 March 25,14 /Spatiotemporal Detection of Unusual Human Population Behaviorcountry led to severe floods, leaving 15 purchase SP600125 people dead, 7000 people homeless and displaced, and more than 1000 houses uninhabitable. Floods also contaminated clean water supplies and decimated field crops, leading to concerns about waterborne diseases and food insecurity in the area. On September 18, floods dramatically swept away 42 homes and forced families to evacuate in the middle of the night. The following day, September 19, is when we find behavioral disruptions of decreased calling and movement. Notably, the behavioral anomalies occur across the country, instead of being concentrated in the areas most affected by flooding. The date of the behavioral disruption suggests a good match with the flooding event, but its spatial range decreases our confidence that the dramatic floods were the sole cause of these dramatic behavioral anomalies. It is possible that other areas of the country were also affected by flooding, that roads were damaged or transportation infrastructure was disrupted, or that families were busy rebuilding homes and crops that were destroyed by the rains. All of these possibilities are plausible explanations for decreased mobility and calling. However, further qualitative and quantitative research on behavioral reactions to similar flood disasters will be necessary to understand if and exactly how people change their communication and movement in response to natural disasters. The contribution of this case study is an indication that reactions to flood disasters might be much more complicated than we currently understand. Christmas Eve–December 24, 2007 and 2008 (Figs. N and O in S1 Supporting Information). We identified 26 sites with unusually high call and movement frequency on December 24, 2007 and 59 such sites on December 24, 2008. Still more sites recorded only higher than usual call volume (21 in 2007 and 17 in 2008), or only higher than usual movement frequency (1 in 2007 and 2 in 2008). Given that about 90 of Rwandans identify as Christians, it is not surprising that we find behavioral anomalies on Christmas Eve in 2007 and 2008. We expect that people called and visited their families to celebrate the holiday, resulting in the increases we find in both behaviors. The particular features of the behavioral anomaly we find on these two days (large spatial extent, higher than usual calls and mobility) match well the characteristics of this major planned.All these sites. On the same day, reports indicate that tens of thousands of Rwandans participated in a series of protests over the arrest in Germany of Rose Kabuye, a prominent Rwandan military and political figure, on alleged involvement in the plane crash that led to the 1994 genocide. The distance between the reported location of the protests (latitude -1.96, longitude 30.04) and the centroid of the closest site with unusual call volume and movement frequency is 1.8 km. Again, we find decreased call and mobility frequency, suggesting disruption in daily routines. In this case however, unlike the previous two cases, the behavioral anomalies occur on the same day as the event. Floods–September 19, 2007 (Fig. M in S1 Supporting Information). Our system identified 53 sites that had unusually low call volume and movement frequency on September 19, 2007. During the previous week, starting on September 12, torrential rains in the northwest of thePLOS ONE | DOI:10.1371/journal.pone.0120449 March 25,14 /Spatiotemporal Detection of Unusual Human Population Behaviorcountry led to severe floods, leaving 15 people dead, 7000 people homeless and displaced, and more than 1000 houses uninhabitable. Floods also contaminated clean water supplies and decimated field crops, leading to concerns about waterborne diseases and food insecurity in the area. On September 18, floods dramatically swept away 42 homes and forced families to evacuate in the middle of the night. The following day, September 19, is when we find behavioral disruptions of decreased calling and movement. Notably, the behavioral anomalies occur across the country, instead of being concentrated in the areas most affected by flooding. The date of the behavioral disruption suggests a good match with the flooding event, but its spatial range decreases our confidence that the dramatic floods were the sole cause of these dramatic behavioral anomalies. It is possible that other areas of the country were also affected by flooding, that roads were damaged or transportation infrastructure was disrupted, or that families were busy rebuilding homes and crops that were destroyed by the rains. All of these possibilities are plausible explanations for decreased mobility and calling. However, further qualitative and quantitative research on behavioral reactions to similar flood disasters will be necessary to understand if and exactly how people change their communication and movement in response to natural disasters. The contribution of this case study is an indication that reactions to flood disasters might be much more complicated than we currently understand. Christmas Eve–December 24, 2007 and 2008 (Figs. N and O in S1 Supporting Information). We identified 26 sites with unusually high call and movement frequency on December 24, 2007 and 59 such sites on December 24, 2008. Still more sites recorded only higher than usual call volume (21 in 2007 and 17 in 2008), or only higher than usual movement frequency (1 in 2007 and 2 in 2008). Given that about 90 of Rwandans identify as Christians, it is not surprising that we find behavioral anomalies on Christmas Eve in 2007 and 2008. We expect that people called and visited their families to celebrate the holiday, resulting in the increases we find in both behaviors. The particular features of the behavioral anomaly we find on these two days (large spatial extent, higher than usual calls and mobility) match well the characteristics of this major planned.